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164e1c8cfe
WSJT-X/Network/MessageClient.cpp
Bill Somerville dd631699da
Add the Tx message to the UDP Status(1) message 
Thanks to Morgan (sri no other attribution given) for the initial
contribution this change is based on.
2020-12-21 01:31:57 +00:00

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#include "MessageClient.hpp"
#include <stdexcept>
#include <vector>
#include <algorithm>
#include <limits>
#include <QUdpSocket>
#include <QNetworkInterface>
#include <QHostInfo>
#include <QTimer>
#include <QQueue>
#include <QByteArray>
#include <QColor>
#include <QDebug>
#include "NetworkMessage.hpp"
#include "qt_helpers.hpp"
#include "pimpl_impl.hpp"
#include "moc_MessageClient.cpp"
// some trace macros
#if WSJT_TRACE_UDP
#define TRACE_UDP(MSG) qDebug () << QString {"MessageClient::%1:"}.arg (__func__) << MSG
#else
#define TRACE_UDP(MSG)
#endif
class MessageClient::impl
: public QUdpSocket
{
Q_OBJECT;
public:
impl (QString const& id, QString const& version, QString const& revision,
port_type server_port, int TTL, MessageClient * self)
: self_ {self}
, enabled_ {false}
, id_ {id}
, version_ {version}
, revision_ {revision}
, dns_lookup_id_ {-1}
, server_port_ {server_port}
, TTL_ {TTL}
, schema_ {2} // use 2 prior to negotiation not 1 which is broken
, heartbeat_timer_ {new QTimer {this}}
{
connect (heartbeat_timer_, &QTimer::timeout, this, &impl::heartbeat);
connect (this, &QIODevice::readyRead, this, &impl::pending_datagrams);
heartbeat_timer_->start (NetworkMessage::pulse * 1000);
}
~impl ()
{
closedown ();
if (dns_lookup_id_ != -1)
{
QHostInfo::abortHostLookup (dns_lookup_id_);
}
}
enum StreamStatus {Fail, Short, OK};
void set_server (QString const& server_name, QStringList const& network_interface_names);
Q_SLOT void host_info_results (QHostInfo);
void start ();
void parse_message (QByteArray const&);
void pending_datagrams ();
void heartbeat ();
void closedown ();
StreamStatus check_status (QDataStream const&) const;
void send_message (QByteArray const&, bool queue_if_pending = true);
void send_message (QDataStream const& out, QByteArray const& message, bool queue_if_pending = true)
{
if (OK == check_status (out))
{
send_message (message, queue_if_pending);
}
else
{
Q_EMIT self_->error ("Error creating UDP message");
}
}
MessageClient * self_;
bool enabled_;
QString id_;
QString version_;
QString revision_;
int dns_lookup_id_;
QHostAddress server_;
port_type server_port_;
int TTL_;
std::vector<QNetworkInterface> network_interfaces_;
quint32 schema_;
QTimer * heartbeat_timer_;
std::vector<QHostAddress> blocked_addresses_;
// hold messages sent before host lookup completes asynchronously
QQueue<QByteArray> pending_messages_;
QByteArray last_message_;
};
#include "MessageClient.moc"
void MessageClient::impl::set_server (QString const& server_name, QStringList const& network_interface_names)
{
// qDebug () << "MessageClient server:" << server_name << "port:" << server_port_ << "interfaces:" << network_interface_names;
server_.setAddress (server_name);
network_interfaces_.clear ();
for (auto const& net_if_name : network_interface_names)
{
network_interfaces_.push_back (QNetworkInterface::interfaceFromName (net_if_name));
}
if (server_.isNull () && server_name.size ()) // DNS lookup required
{
// queue a host address lookup
#if QT_VERSION >= QT_VERSION_CHECK(5, 9, 0)
dns_lookup_id_ = QHostInfo::lookupHost (server_name, this, &MessageClient::impl::host_info_results);
#else
dns_lookup_id_ = QHostInfo::lookupHost (server_name, this, SLOT (host_info_results (QHostInfo)));
#endif
}
else
{
start ();
}
}
void MessageClient::impl::host_info_results (QHostInfo host_info)
{
if (host_info.lookupId () != dns_lookup_id_) return;
dns_lookup_id_ = -1;
if (QHostInfo::NoError != host_info.error ())
{
Q_EMIT self_->error ("UDP server DNS lookup failed: " + host_info.errorString ());
}
else
{
auto const& server_addresses = host_info.addresses ();
if (server_addresses.size ())
{
server_ = server_addresses[0];
}
}
start ();
}
void MessageClient::impl::start ()
{
if (server_.isNull ())
{
Q_EMIT self_->close ();
pending_messages_.clear (); // discard
return;
}
if (is_broadcast_address (server_))
{
Q_EMIT self_->error ("IPv4 broadcast not supported, please specify the loop-back address, a server host address, or multicast group address");
pending_messages_.clear (); // discard
return;
}
if (blocked_addresses_.end () != std::find (blocked_addresses_.begin (), blocked_addresses_.end (), server_))
{
Q_EMIT self_->error ("UDP server blocked, please try another");
pending_messages_.clear (); // discard
return;
}
TRACE_UDP ("Trying server:" << server_.toString ());
QHostAddress interface_addr {IPv6Protocol == server_.protocol () ? QHostAddress::AnyIPv6 : QHostAddress::AnyIPv4};
if (localAddress () != interface_addr)
{
if (UnconnectedState != state () || state ())
{
close ();
}
// bind to an ephemeral port on the selected interface and set
// up for sending datagrams
bind (interface_addr);
// qDebug () << "Bound to UDP port:" << localPort () << "on:" << localAddress ();
// set multicast TTL to limit scope when sending to multicast
// group addresses
setSocketOption (MulticastTtlOption, TTL_);
}
// send initial heartbeat which allows schema negotiation
heartbeat ();
// clear any backlog
while (pending_messages_.size ())
{
send_message (pending_messages_.dequeue (), false);
}
}
void MessageClient::impl::pending_datagrams ()
{
while (hasPendingDatagrams ())
{
QByteArray datagram;
datagram.resize (pendingDatagramSize ());
QHostAddress sender_address;
port_type sender_port;
if (0 <= readDatagram (datagram.data (), datagram.size (), &sender_address, &sender_port))
{
TRACE_UDP ("message received from:" << sender_address << "port:" << sender_port);
parse_message (datagram);
}
}
}
void MessageClient::impl::parse_message (QByteArray const& msg)
{
try
{
//
// message format is described in NetworkMessage.hpp
//
NetworkMessage::Reader in {msg};
if (OK == check_status (in))
{
if (schema_ < in.schema ()) // one time record of server's
// negotiated schema
{
schema_ = in.schema ();
}
if (!enabled_)
{
TRACE_UDP ("message processing disabled for id:" << in.id ());
return;
}
//
// message format is described in NetworkMessage.hpp
//
switch (in.type ())
{
case NetworkMessage::Reply:
{
// unpack message
QTime time;
qint32 snr;
float delta_time;
quint32 delta_frequency;
QByteArray mode;
QByteArray message;
bool low_confidence {false};
quint8 modifiers {0};
in >> time >> snr >> delta_time >> delta_frequency >> mode >> message
>> low_confidence >> modifiers;
TRACE_UDP ("Reply: time:" << time << "snr:" << snr << "dt:" << delta_time << "df:" << delta_frequency << "mode:" << mode << "message:" << message << "low confidence:" << low_confidence << "modifiers: 0x"
#if QT_VERSION >= QT_VERSION_CHECK (5, 15, 0)
<< Qt::hex
#else
<< hex
#endif
<< modifiers);
if (check_status (in) != Fail)
{
Q_EMIT self_->reply (time, snr, delta_time, delta_frequency
, QString::fromUtf8 (mode), QString::fromUtf8 (message)
, low_confidence, modifiers);
}
}
break;
case NetworkMessage::Clear:
{
quint8 window {0};
in >> window;
TRACE_UDP ("Clear window:" << window);
if (check_status (in) != Fail)
{
Q_EMIT self_->clear_decodes (window);
}
}
break;
case NetworkMessage::Close:
TRACE_UDP ("Close");
if (check_status (in) != Fail)
{
last_message_.clear ();
Q_EMIT self_->close ();
}
break;
case NetworkMessage::Replay:
TRACE_UDP ("Replay");
if (check_status (in) != Fail)
{
last_message_.clear ();
Q_EMIT self_->replay ();
}
break;
case NetworkMessage::HaltTx:
{
bool auto_only {false};
in >> auto_only;
TRACE_UDP ("Halt Tx auto_only:" << auto_only);
if (check_status (in) != Fail)
{
Q_EMIT self_->halt_tx (auto_only);
}
}
break;
case NetworkMessage::FreeText:
{
QByteArray message;
bool send {true};
in >> message >> send;
TRACE_UDP ("FreeText message:" << message << "send:" << send);
if (check_status (in) != Fail)
{
Q_EMIT self_->free_text (QString::fromUtf8 (message), send);
}
}
break;
case NetworkMessage::Location:
{
QByteArray location;
in >> location;
TRACE_UDP ("Location location:" << location);
if (check_status (in) != Fail)
{
Q_EMIT self_->location (QString::fromUtf8 (location));
}
}
break;
case NetworkMessage::HighlightCallsign:
{
QByteArray call;
QColor bg; // default invalid color
QColor fg; // default invalid color
bool last_only {false};
in >> call >> bg >> fg >> last_only;
TRACE_UDP ("HighlightCallsign call:" << call << "bg:" << bg << "fg:" << fg << "last only:" << last_only);
if (check_status (in) != Fail && call.size ())
{
Q_EMIT self_->highlight_callsign (QString::fromUtf8 (call), bg, fg, last_only);
}
}
break;
case NetworkMessage::SwitchConfiguration:
{
QByteArray configuration_name;
in >> configuration_name;
TRACE_UDP ("Switch Configuration name:" << configuration_name);
if (check_status (in) != Fail)
{
Q_EMIT self_->switch_configuration (QString::fromUtf8 (configuration_name));
}
}
break;
case NetworkMessage::Configure:
{
QByteArray mode;
quint32 frequency_tolerance;
QByteArray submode;
bool fast_mode {false};
quint32 tr_period {std::numeric_limits<quint32>::max ()};
quint32 rx_df {std::numeric_limits<quint32>::max ()};
QByteArray dx_call;
QByteArray dx_grid;
bool generate_messages {false};
in >> mode >> frequency_tolerance >> submode >> fast_mode >> tr_period >> rx_df
>> dx_call >> dx_grid >> generate_messages;
TRACE_UDP ("Configure mode:" << mode << "frequency tolerance:" << frequency_tolerance << "submode:" << submode << "fast mode:" << fast_mode << "T/R period:" << tr_period << "rx df:" << rx_df << "dx call:" << dx_call << "dx grid:" << dx_grid << "generate messages:" << generate_messages);
if (check_status (in) != Fail)
{
Q_EMIT self_->configure (QString::fromUtf8 (mode), frequency_tolerance
, QString::fromUtf8 (submode), fast_mode, tr_period, rx_df
, QString::fromUtf8 (dx_call), QString::fromUtf8 (dx_grid)
, generate_messages);
}
}
break;
default:
// Ignore
//
// Note that although server heartbeat messages are not
// parsed here they are still partially parsed in the
// message reader class to negotiate the maximum schema
// number being used on the network.
if (NetworkMessage::Heartbeat != in.type ())
{
TRACE_UDP ("ignoring message type:" << in.type ());
}
break;
}
}
else
{
TRACE_UDP ("ignored message for id:" << in.id ());
}
}
catch (std::exception const& e)
{
Q_EMIT self_->error (QString {"MessageClient exception: %1"}.arg (e.what ()));
}
catch (...)
{
Q_EMIT self_->error ("Unexpected exception in MessageClient");
}
}
void MessageClient::impl::heartbeat ()
{
if (server_port_ && !server_.isNull ())
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::Heartbeat, id_, schema_};
out << NetworkMessage::Builder::schema_number // maximum schema number accepted
<< version_.toUtf8 () << revision_.toUtf8 ();
TRACE_UDP ("schema:" << schema_ << "max schema:" << NetworkMessage::Builder::schema_number << "version:" << version_ << "revision:" << revision_);
send_message (out, message, false);
}
}
void MessageClient::impl::closedown ()
{
if (server_port_ && !server_.isNull ())
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::Close, id_, schema_};
TRACE_UDP ("");
send_message (out, message, false);
}
}
void MessageClient::impl::send_message (QByteArray const& message, bool queue_if_pending)
{
if (server_port_)
{
if (!server_.isNull ())
{
if (message != last_message_) // avoid duplicates
{
if (is_multicast_address (server_))
{
// send datagram on each selected network interface
std::for_each (network_interfaces_.begin (), network_interfaces_.end ()
, [&] (QNetworkInterface const& net_if) {
setMulticastInterface (net_if);
// qDebug () << "Multicast UDP datagram sent to:" << server_ << "port:" << server_port_ << "on:" << multicastInterface ().humanReadableName ();
writeDatagram (message, server_, server_port_);
});
}
else
{
// qDebug () << "Unicast UDP datagram sent to:" << server_ << "port:" << server_port_;
writeDatagram (message, server_, server_port_);
}
last_message_ = message;
}
}
else if (queue_if_pending)
{
pending_messages_.enqueue (message);
}
}
}
auto MessageClient::impl::check_status (QDataStream const& stream) const -> StreamStatus
{
auto stat = stream.status ();
StreamStatus result {Fail};
switch (stat)
{
case QDataStream::ReadPastEnd:
result = Short;
break;
case QDataStream::ReadCorruptData:
Q_EMIT self_->error ("Message serialization error: read corrupt data");
break;
case QDataStream::WriteFailed:
Q_EMIT self_->error ("Message serialization error: write error");
break;
default:
result = OK;
break;
}
return result;
}
MessageClient::MessageClient (QString const& id, QString const& version, QString const& revision,
QString const& server_name, port_type server_port,
QStringList const& network_interface_names,
int TTL, QObject * self)
: QObject {self}
, m_ {id, version, revision, server_port, TTL, this}
{
connect (&*m_
#if QT_VERSION < QT_VERSION_CHECK(5, 15, 0)
, static_cast<void (impl::*) (impl::SocketError)> (&impl::error), [this] (impl::SocketError e)
#else
, &impl::errorOccurred, [this] (impl::SocketError e)
#endif
{
#if defined (Q_OS_WIN)
if (e != impl::NetworkError // take this out when Qt 5.5 stops doing this spuriously
&& e != impl::ConnectionRefusedError) // not interested in this with UDP socket
{
#else
{
Q_UNUSED (e);
#endif
Q_EMIT error (m_->errorString ());
}
});
m_->set_server (server_name, network_interface_names);
}
QHostAddress MessageClient::server_address () const
{
return m_->server_;
}
auto MessageClient::server_port () const -> port_type
{
return m_->server_port_;
}
void MessageClient::set_server (QString const& server_name, QStringList const& network_interface_names)
{
m_->set_server (server_name, network_interface_names);
}
void MessageClient::set_server_port (port_type server_port)
{
m_->server_port_ = server_port;
}
void MessageClient::set_TTL (int TTL)
{
m_->TTL_ = TTL;
m_->setSocketOption (QAbstractSocket::MulticastTtlOption, m_->TTL_);
}
void MessageClient::enable (bool flag)
{
m_->enabled_ = flag;
}
void MessageClient::status_update (Frequency f, QString const& mode, QString const& dx_call
, QString const& report, QString const& tx_mode
, bool tx_enabled, bool transmitting, bool decoding
, quint32 rx_df, quint32 tx_df, QString const& de_call
, QString const& de_grid, QString const& dx_grid
, bool watchdog_timeout, QString const& sub_mode
, bool fast_mode, quint8 special_op_mode
, quint32 frequency_tolerance, quint32 tr_period
, QString const& configuration_name
, QString const& tx_message)
{
if (m_->server_port_ && !m_->server_.isNull ())
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::Status, m_->id_, m_->schema_};
out << f << mode.toUtf8 () << dx_call.toUtf8 () << report.toUtf8 () << tx_mode.toUtf8 ()
<< tx_enabled << transmitting << decoding << rx_df << tx_df << de_call.toUtf8 ()
<< de_grid.toUtf8 () << dx_grid.toUtf8 () << watchdog_timeout << sub_mode.toUtf8 ()
<< fast_mode << special_op_mode << frequency_tolerance << tr_period << configuration_name.toUtf8 ()
<< tx_message.toUtf8 ();
TRACE_UDP ("frequency:" << f << "mode:" << mode << "DX:" << dx_call << "report:" << report << "Tx mode:" << tx_mode << "tx_enabled:" << tx_enabled << "Tx:" << transmitting << "decoding:" << decoding << "Rx df:" << rx_df << "Tx df:" << tx_df << "DE:" << de_call << "DE grid:" << de_grid << "DX grid:" << dx_grid << "w/d t/o:" << watchdog_timeout << "sub_mode:" << sub_mode << "fast mode:" << fast_mode << "spec op mode:" << special_op_mode << "frequency tolerance:" << frequency_tolerance << "T/R period:" << tr_period << "configuration name:" << configuration_name << "Tx message:" << tx_message);
m_->send_message (out, message);
}
}
void MessageClient::decode (bool is_new, QTime time, qint32 snr, float delta_time, quint32 delta_frequency
, QString const& mode, QString const& message_text, bool low_confidence
, bool off_air)
{
if (m_->server_port_ && !m_->server_.isNull ())
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::Decode, m_->id_, m_->schema_};
out << is_new << time << snr << delta_time << delta_frequency << mode.toUtf8 ()
<< message_text.toUtf8 () << low_confidence << off_air;
TRACE_UDP ("new" << is_new << "time:" << time << "snr:" << snr << "dt:" << delta_time << "df:" << delta_frequency << "mode:" << mode << "text:" << message_text << "low conf:" << low_confidence << "off air:" << off_air);
m_->send_message (out, message);
}
}
void MessageClient::WSPR_decode (bool is_new, QTime time, qint32 snr, float delta_time, Frequency frequency
, qint32 drift, QString const& callsign, QString const& grid, qint32 power
, bool off_air)
{
if (m_->server_port_ && !m_->server_.isNull ())
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::WSPRDecode, m_->id_, m_->schema_};
out << is_new << time << snr << delta_time << frequency << drift << callsign.toUtf8 ()
<< grid.toUtf8 () << power << off_air;
TRACE_UDP ("new:" << is_new << "time:" << time << "snr:" << snr << "dt:" << delta_time << "frequency:" << frequency << "drift:" << drift << "call:" << callsign << "grid:" << grid << "pwr:" << power << "off air:" << off_air);
m_->send_message (out, message);
}
}
void MessageClient::decodes_cleared ()
{
if (m_->server_port_ && !m_->server_.isNull ())
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::Clear, m_->id_, m_->schema_};
TRACE_UDP ("");
m_->send_message (out, message);
}
}
void MessageClient::qso_logged (QDateTime time_off, QString const& dx_call, QString const& dx_grid
, Frequency dial_frequency, QString const& mode, QString const& report_sent
, QString const& report_received, QString const& tx_power
, QString const& comments, QString const& name, QDateTime time_on
, QString const& operator_call, QString const& my_call
, QString const& my_grid, QString const& exchange_sent
, QString const& exchange_rcvd, QString const& propmode)
{
if (m_->server_port_ && !m_->server_.isNull ())
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::QSOLogged, m_->id_, m_->schema_};
out << time_off << dx_call.toUtf8 () << dx_grid.toUtf8 () << dial_frequency << mode.toUtf8 ()
<< report_sent.toUtf8 () << report_received.toUtf8 () << tx_power.toUtf8 () << comments.toUtf8 ()
<< name.toUtf8 () << time_on << operator_call.toUtf8 () << my_call.toUtf8 () << my_grid.toUtf8 ()
<< exchange_sent.toUtf8 () << exchange_rcvd.toUtf8 () << propmode.toUtf8 ();
TRACE_UDP ("time off:" << time_off << "DX:" << dx_call << "DX grid:" << dx_grid << "dial:" << dial_frequency << "mode:" << mode << "sent:" << report_sent << "rcvd:" << report_received << "pwr:" << tx_power << "comments:" << comments << "name:" << name << "time on:" << time_on << "op:" << operator_call << "DE:" << my_call << "DE grid:" << my_grid << "exch sent:" << exchange_sent << "exch rcvd:" << exchange_rcvd << "prop_mode:" << propmode);
m_->send_message (out, message);
}
}
void MessageClient::logged_ADIF (QByteArray const& ADIF_record)
{
if (m_->server_port_ && !m_->server_.isNull ())
{
QByteArray message;
NetworkMessage::Builder out {&message, NetworkMessage::LoggedADIF, m_->id_, m_->schema_};
QByteArray ADIF {"\n<adif_ver:5>3.1.0\n<programid:6>WSJT-X\n<EOH>\n" + ADIF_record + " <EOR>"};
out << ADIF;
TRACE_UDP ("ADIF:" << ADIF);
m_->send_message (out, message);
}
}
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